Issue Section:
Technical Briefs
1.
Abou-Ellail
M. M. M.
Morcos
S. M.
1983
, “Buoyancy Effects in the Entrance Region of Horizontal Rectangular Channels
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 105
, pp. 924
–928
.2.
Azad
F. H.
Modest
M. F.
1981
, “Combined Radiation and Convection in Absorbing, Emitting and Anisotropically Scattering Gas-Particulate Tube Flow
,” Int. J. Heat Mass Transfer
, Vol. 24
, pp. 1681
–1697
.3.
Carlson, B. G., and Lathrop, K. D., 1968, “Transport Theory—the Method of Discrete Ordinates,” Computing Method in Reactor Physics, Edited by H. Greenspan, C. N. Kelber, and D. Okrent, eds., Gordon & Breach Press, New York, pp. 165–266.
4.
Chen
J. C.
1966
, “Laminar Heat Transfer in a Tube with Nonlinear Radial Heat-Flux Boundary Conditions
,” Int. J. Heat Mass Transfer
, Vol. 9
, pp. 433
–440
.5.
Cheng
C. R.
Weng
C. J.
Aung
W.
1995
, “Buoyancy Effect on the Flow Reversal of Three-Dimensional Developing Flow in a Vertical Rectangular Duct—A Parabolic Model Solution
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 117
, pp. 238
–241
.6.
Cheng
K. C.
Yuen
F. P.
1985
,“Flow Visualization Studies on Secondary Flow Pattern for Mixed Convection in the Entrance Region of Isothermally Heated Inclined Pipes
,” Fundamentals of Forced and Mixed Convection
, ASME HTD-Vol. 42
, pp. 121
–130
.7.
Chou
F. C.
Hwang
G. J.
1987
, “Vorticity-Velocity Method for Graetz Problem with the Effect of Natural Convection in a Horizontal Rectangular Channel with Uniform Wall Heat Flux
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 109
, pp. 704
–710
.8.
Choudhury
D.
Patankar
S. V.
1988
, “Combined Forced and Free Laminar Convection in the Entrance Region of an Inclined Isothermal Tube
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 110
, pp. 901
–909
.9.
Fiveland
W. A.
1988
, “Three-Dimensional Radiative Heat Transfer Solutions by the Discrete-Ordinates Method
,” AIAA J. Thermophysics and Heat Transfer
, Vol. 2
, pp. 309
–316
.10.
Hishida
M.
Nagano
Y.
Montesclaros
M. S.
1982
, “Combined Forced and Free Convection in the Entrance Region of an Isothermally Heated Horizontal Pipe
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 104
, pp. 153
–159
.11.
Huang
J. M.
Lin
J. D.
Chou
F. C.
1990
, “Combined Radiation and Laminar Mixed Convection in the Thermal Entrance Region of Horizontal Isothermal Rectangular Channels
,” Numer. Heat Transfer, Part A
, Vol. 18
, pp. 113
–125
.12.
Incropera
F. P.
Knox
A. L.
Maughan
J. R.
1988
, “Effect of Wall Heat Flux Distribution on Laminar Mixed Convection in the Entry Region of a Horizontal Rectangular Duct
,” Numer. Heat Transfer
, Vol. 13
, pp. 427
–450
.13.
Kim
T. A.
Baek
S. W.
1991
, “Analysis of Combined Conductive and Radiative Heat Transfer in a Two-Dimensional Rectangular Enclosure Using the Discrete Ordinates Method
,” Int. J. Heat Mass Transfer
, Vol. 34
, pp. 2265
–2273
.14.
Mahaney
H. V.
Incropera
F. P.
Ramadhyani
S.
1987
, “Development of Laminar Mixed Convection Flow in a Horizontal Rectangular Duct with Uniform Bottom Heating
,” Numer. Heat Transfer
, Vol. 12
, pp. 137
–155
.15.
Modest, M. F., 1993, Radiative Heat Transfer, McGraw-Hill, New York, pp. 541–571.
16.
Morcos
E. M.
Abou-Ellail
M. M. M.
1983
, “Buoyancy Effects in the Entrance Region of an Inclined Multirectangular Channel Solar Collector
,” ASME Journal of Solar Energy Engineering
, Vol. 105
, pp. 157
–162
.17.
Morcos
S. M.
Hilal
M. M.
Kamel
M. M.
Soliman
M. S.
1986
, “Experimental Investigation of Mixed Laminar Convection in the Entrance Region of Inclined Rectangular Channels
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 108
, pp. 574
–579
.18.
Roache, P. J., 1971, Computational Fluid Dynamics, Reinhold, New York, pp. 61–64.
19.
Wassel
A. T.
Edwards
D. K.
1976
, “Molecular Radiation in a Laminar or Turbulent Pipe Flow
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 98
, pp. 101
–107
.20.
Yan
W. M.
1994
, “Mixed Convection Heat and Mass Transfer in Inclined Rectangular Ducts
,” Int. J. Heat Mass Transfer
, Vol. 37
, pp. 1857
–1866
.21.
Yan
W. M.
1995
, “Transport Phenomena of Developing Laminar Mixed Convection Heat and Mass Transfer in Inclined Rectangular Ducts
,” Int. J. Heat Mass Transfer
, Vol. 38
, pp. 2905
–2914
.
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